fumarates and aspartic-semialdehyde

Inactivation of the enzyme L-aspartase from Escherichia coli by the substrate analog aspartate beta-semialdehyde has previously been shown to occur by the mechanism-based conversion to the corresponding product aldehyde, followed by covalent modification of cysteine-273 (F. Giorgianni et al. (1995) Biochemistry 34, 3529). Inactivation by the product analog, fumaric acid aldehyde (FAA), has now been examined directly by adding a reduction step to the modification protocol in order to stabilize the resulting enzyme-FAA derivative(s). HPLC and mass spectrometric analyses of proteolytic digests of inactivated L-aspartase have confirmed the modification at cysteine-273, and have also identified an additional modified peptide. The inactivation at this additional site involves a crosslink between cysteine-140 and an adjacent lysine. Site-directed mutagenesis studies have shown that cysteine-140 is a very reactive and accessible nucleophile that is not, however, directly involved in enzyme activity. The adjacent lysine-139 that is modified does appear to play a role in substrate binding. A double mutant in which both of the reactive cysteines have been replaced is almost completely insensitive to modification by these substrate and product analogs.

Topics: Aspartate Ammonia-Lyase; Aspartic Acid; Bacterial Proteins; Chromatography, High Pressure Liquid; Cysteine; Deamination; Enzyme Inhibitors; Escherichia coli; Fumarates; Lysine; Mutagenesis, Site-Directed; Peptide Fragments